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200 lines
9.5 KiB
200 lines
9.5 KiB
Glossary
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========
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.. glossary::
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baremetal
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A system without a (full-fledged) operating system, for example an
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:term:`MCU`-based system. When running on a baremetal system,
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MicroPython effectively functions like a small operating system,
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running user programs and providing a command interpreter
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(:term:`REPL`).
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buffer protocol
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Any Python object that can be automatically converted into bytes, such
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as ``bytes``, ``bytearray``, ``memoryview`` and ``str`` objects, which
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all implement the "buffer protocol".
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board
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Typically this refers to a printed circuit board (PCB) containing a
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:term:`microcontroller <MCU>` and supporting components.
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MicroPython firmware is typically provided per-board, as the firmware
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contains both MCU-specific functionality but also board-level
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functionality such as drivers or pin names.
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bytecode
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A compact representation of a Python program that generated by
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compiling the Python source code. This is what the VM actually
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executes. Bytecode is typically generated automatically at runtime and
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is invisible to the user. Note that while :term:`CPython` and
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MicroPython both use bytecode, the format is different. You can also
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pre-compile source code offline using the :term:`cross-compiler`.
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callee-owned tuple
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This is a MicroPython-specific construct where, for efficiency
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reasons, some built-in functions or methods may re-use the same
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underlying tuple object to return data. This avoids having to allocate
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a new tuple for every call, and reduces heap fragmentation. Programs
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should not hold references to callee-owned tuples and instead only
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extract data from them (or make a copy).
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CircuitPython
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A variant of MicroPython developed by `Adafruit Industries
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<https://circuitpython.org>`_.
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CPython
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CPython is the reference implementation of the Python programming
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language, and the most well-known one. It is, however, one of many
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implementations (including Jython, IronPython, PyPy, and MicroPython).
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While MicroPython's implementation differs substantially from CPython,
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it aims to maintain as much compatibility as possible.
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cross-compiler
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Also known as ``mpy-cross``. This tool runs on your PC and converts a
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:term:`.py file` containing MicroPython code into a :term:`.mpy file`
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containing MicroPython bytecode. This means it loads faster (the board
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doesn't have to compile the code), and uses less space on flash (the
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bytecode is more space efficient).
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driver
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A MicroPython library that implements support for a particular
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component, such as a sensor or display.
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FFI
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Acronym for Foreign Function Interface. A mechanism used by the
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:term:`MicroPython Unix port` to access operating system functionality.
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This is not available on :term:`baremetal` ports.
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filesystem
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Most MicroPython ports and boards provide a filesystem stored in flash
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that is available to user code via the standard Python file APIs such
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as ``open()``. Some boards also make this internal filesystem
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accessible to the host via USB mass-storage.
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frozen module
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A Python module that has been cross compiled and bundled into the
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firmware image. This reduces RAM requirements as the code is executed
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directly from flash.
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Garbage Collector
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A background process that runs in Python (and MicroPython) to reclaim
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unused memory in the :term:`heap`.
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GPIO
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General-purpose input/output. The simplest means to control electrical
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signals (commonly referred to as "pins") on a microcontroller. GPIO
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typically allows pins to be either input or output, and to set or get
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their digital value (logical "0" or "1"). MicroPython abstracts GPIO
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access using the :class:`machine.Pin` and :class:`machine.Signal`
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classes.
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GPIO port
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A group of :term:`GPIO` pins, usually based on hardware properties of
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these pins (e.g. controllable by the same register).
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heap
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A region of RAM where MicroPython stores dynamic data. It is managed
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automatically by the :term:`Garbage Collector`. Different MCUs and
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boards have vastly different amounts of RAM available for the heap, so
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this will affect how complex your program can be.
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interned string
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An optimisation used by MicroPython to improve the efficiency of
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working with strings. An interned string is referenced by its (unique)
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identity rather than its address and can therefore be quickly compared
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just by its identifier. It also means that identical strings can be
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de-duplicated in memory. String interning is almost always invisible to
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the user.
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MCU
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Microcontroller. Microcontrollers usually have much less resources
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than a desktop, laptop, or phone, but are smaller, cheaper and
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require much less power. MicroPython is designed to be small and
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optimized enough to run on an average modern microcontroller.
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micropython-lib
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MicroPython is (usually) distributed as a single executable/binary
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file with just few builtin modules. There is no extensive standard
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library comparable with :term:`CPython`'s. Instead, there is a related,
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but separate project `micropython-lib
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<https://github.com/micropython/micropython-lib>`_ which provides
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implementations for many modules from CPython's standard library.
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Some of the modules are are implemented in pure Python, and are able to
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be used on all ports. However, the majority of these modules use
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:term:`FFI` to access operating system functionality, and as such can
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only be used on the :term:`MicroPython Unix port` (with limited support
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for Windows).
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Unlike the :term:`CPython` stdlib, micropython-lib modules are
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intended to be installed individually - either using manual copying or
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using :term:`upip`.
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MicroPython port
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MicroPython supports different :term:`boards <board>`, RTOSes, and
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OSes, and can be relatively easily adapted to new systems. MicroPython
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with support for a particular system is called a "port" to that
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system. Different ports may have widely different functionality. This
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documentation is intended to be a reference of the generic APIs
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available across different ports ("MicroPython core"). Note that some
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ports may still omit some APIs described here (e.g. due to resource
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constraints). Any such differences, and port-specific extensions
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beyond the MicroPython core functionality, would be described in the
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separate port-specific documentation.
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MicroPython Unix port
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The unix port is one of the major :term:`MicroPython ports
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<MicroPython port>`. It is intended to run on POSIX-compatible
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operating systems, like Linux, MacOS, FreeBSD, Solaris, etc. It also
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serves as the basis of Windows port. The Unix port is very useful for
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quick development and testing of the MicroPython language and
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machine-independent features. It can also function in a similar way to
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:term:`CPython`'s ``python`` executable.
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.mpy file
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The output of the :term:`cross-compiler`. A compiled form of a
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:term:`.py file` that contains MicroPython bytecode instead of Python
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source code.
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native
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Usually refers to "native code", i.e. machine code for the target
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microcontroller (such as ARM Thumb, Xtensa, x86/x64). The ``@native``
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decorator can be applied to a MicroPython function to generate native
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code instead of bytecode for that function, which will likely be
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faster but use more RAM.
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port
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Usually short for :term:`MicroPython port`, but could also refer to
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:term:`GPIO port`.
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.py file
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A file containing Python source code.
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REPL
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An acronym for "Read, Eval, Print, Loop". This is the interactive
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Python prompt, useful for debugging or testing short snippets of code.
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Most MicroPython boards make a REPL available over a UART, and this is
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typically accessible on a host PC via USB.
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stream
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Also known as a "file-like object". A Python object which provides
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sequential read-write access to the underlying data. A stream object
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implements a corresponding interface, which consists of methods like
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``read()``, ``write()``, ``readinto()``, ``seek()``, ``flush()``,
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``close()``, etc. A stream is an important concept in MicroPython;
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many I/O objects implement the stream interface, and thus can be used
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consistently and interchangeably in different contexts. For more
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information on streams in MicroPython, see the `io` module.
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UART
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Acronym for "Universal Asynchronous Receiver/Transmitter". This is a
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peripheral that sends data over a pair of pins (TX & RX). Many boards
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include a way to make at least one of the UARTs available to a host PC
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as a serial port over USB.
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upip
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(Literally, "micro pip"). A package manager for MicroPython, inspired
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by :term:`CPython`'s pip, but much smaller and with reduced
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functionality.
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upip runs both on the :term:`Unix port <MicroPython Unix port>` and on
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:term:`baremetal` ports which offer filesystem and networking support.
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